Kontinuierlich
Kontinuierliche Funktionsblöcke wie z.B. Derivative und Integrator
Verwenden Sie Blöcke aus der Bibliothek „Continuous“, um Differentialgleichungen zu modellieren. Sie können die zeitliche Ableitung eines Signals nehmen. Sie können ein Signal integrieren oder verzögern. Sie können PID-Regler und lineare Systeme mithilfe von Übertragungsfunktionen oder Zustandsraumdarstellungen modellieren.
Blöcke
Derivative | Compute approximate continuous derivative of continuous input signal with respect to time |
Descriptor State-Space | Model linear implicit systems |
Entity Transport Delay | Introduce a delay in propagation of a SimEvents message (Seit R2019b) |
First Order Hold | Implement linearly extrapolated first order hold on input signal (Seit R2019b) |
Integrator | Integrate signal |
Integrator Limited | Integrate signal |
PID Controller | Continuous-time or discrete-time PID controller |
PID Controller (2DOF) | Continuous-time or discrete-time two-degree-of-freedom PID controller |
Second-Order Integrator | Second-order integration of input signal |
Second-Order Integrator Limited | Second-order integration of input signal |
State-Space | Implement linear state-space system |
Transfer Fcn | Model linear system as transfer function |
Transport Delay | Delay input by given amount of time |
Variable Time Delay | Delay input by variable amount of time |
Variable Transport Delay | Delay input by variable amount of time |
Zero-Pole | Model system using zero-pole-gain transfer function |
Themen
- Model a Continuous System
Model a system with variables defined at all time values.
- Modeling Cyber-Physical Systems
Model transport delay in a variable speed conveyor belt.